Lifelong voluntary exercise in the mouse prevents age-related alterations in gene expression in the heart
- PMID: 12429864
- DOI: 10.1152/physiolgenomics.00082.2002
Lifelong voluntary exercise in the mouse prevents age-related alterations in gene expression in the heart
Abstract
We present the first quantitative gene expression analysis of cardiac aging under conditions of sedentary and active lifestyles using high-density oligonucleotide arrays representing 11,904 cDNAs and expressed sequence tags (ESTs). With these data, we test the hypothesis that exercise attenuates the gene expression changes that normally occur in the aging heart. Male mice (Mus domesticus) were sampled from the 16th generation of selective breeding for high voluntary exercise. For the selective breeding protocol, breeders were chosen based on the maximum number of wheel revolutions run on days 5 and 6 of a test at 8 wk of age. For the colony sampled herein, mice were housed individually over their entire lifetimes (from weaning) either with or without access to running wheels. The hearts of these two treatment groups (active and sedentary) were assayed at middle age (20 mo) and old age (33 mo). Genes significantly affected by age in the hearts of the sedentary population by at least a 50% expression change (n = 137) were distributed across several major categories, including inflammatory response, stress response, signal transduction, and energy metabolism. Genes significantly affected by age in the active population were fewer (n = 62). Of the 42 changes in gene expression that were common to both treatment groups, 32 (72%) displayed smaller fold changes as a result of exercise. Thus exercise offset many age-related gene expression changes observed in the hearts of the sedentary animals. These results suggest that adaptive physiological mechanisms that are induced by exercise can retard many effects of aging on heart muscle at the transcriptional level.
Comment in
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In for the long run: focus on "Lifelong voluntary exercise in the mouse prevents age-related alterations in gene expression in the heart".Physiol Genomics. 2003 Jan 15;12(2):71-2. doi: 10.1152/physiolgenomics.00177.2002. Physiol Genomics. 2003. PMID: 12529476 Review. No abstract available.
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